External StructureChamber Capacity
Approximately 38 cu.F.t (1.1 m³)
Overall Dimensions
78.7" L x 39.4" W x 74.8" H
2000mm (L) x 1000mm (W) x 1900mm (H)
Overall Weight
640 kg (1400 lbs)Electrical Voltage
• 230 VAC/50-60 Hz, 10 A
• 115 VAC/50-60 Hz, 20 A
• 100 VAC/50-60 Hz, 20 A
DescriptionMaterial
Stainless Steel Type 304 (USA), 3.0 mm in thicknes
Internal Dimensions
47" L x 39.4" W x 35.4" H
1200mm (L) x 1000mm (W) x 900mm (H)
Inclined Front Window
Material
Tempered glass, 8.0 mm in thickness,Lexan (polycarbonate) 10 mm in thickness upon request
Dimensions
44"L x 33" W
1120mm (L) x 840mm (W)
Glove Ports
Tecaform220 mm (8.6")in diameter, O-ring sealed
Material
Hard aluminum alloy or polyaldehyde upon request gloves
MaterialButyl rubber
Thickness
0.4 mm,(standard)
0.8 mm upon request
• Inlet and outlet filters eliminate particles with the size > 0.3μm
Lighting
• Fluorescent lamp, front-mounted
Leak Rate
Typically <0.05% vol/hr at -10 m bar,
· by oxygen leak decay test method according to ISO 10648-2: 1994,
· by Pressure Change Test Method according to ISO 25412
Description
• Automated removal of H2O and O2
• Single column, automated column regeneration; dual purification columns (optional)
• Enclosed stainless steel loop for gas recirculation and purification
Operating GasWorking gas nitrogen, Argon, or Helium (purity >99.999%)
Column regeneration gas
Mixture of H2 (5-10%) and working gas vacuum Pump
Description
Rotary vane pump, installed with oil mist filter, oil circulator, and automatic gas ballast control; dual-stage.
Or dry pump upon request
Pumping rate
7.0 CFM (12 m³/h)
Ultimate vacuum
< 2 x 10-3 mbar
Circulation Unit
Material
Integrated blower, oil-free, highly efficient
Flow Rate
47 CFM (80 m³/h)
Leakage Rate
• Leak rate <10-5 m bar l/s
Valves
• Electro-pneumatic DN 40
Leakage Rate
Typically <0.05% vol/hr at -10 m bar,
· by oxygen leak decay test method according to ISO 10648-2: 1994,
· or by Pressure Change Test Method according to ISO 25412
LCD or LED Display
LCD, Pressure, O2 and H2O value is logged for 24 hours control Cabinet
Material
Steel, External surfaces: RAL 7035
Dimensions
23.6" L x 31.5" W x 34.2" H
600mm (L) x 800mm (D) x 870mm (H)
Material
Stainless Steel Type 304; 3.0 mm in thickness
Internal Dimensions
14"(Φ) x 23.6"(L)
360mm (Φ) x 600mm (L)
Vacuum
1 x 10-2 m bar
Stainless Steel Type 304 (USA); thickness 3.0 mm
Inside Dimensions
5.9"(Φ) x 13"(L)
150mm (Φ) x 330mm (L)
Vacuum
1 x 10-2 m bar
Function
By setting up the purging time and pressure, the system automatically purges the chamber
O2 level, timer or manually controlled
8" L x 3" D x 2.4" H
205mm (L) x 80mm (W) x 60mm (H)
0 to 1000 ppm (V)
Other Analyzer
GE oxy.IQ™ Oxygen Transmitter upon request
Dimensions
8" L x 3" D x 2.4" H
205mm (L) x 80mm (W) x 60mm (H)
Measurement Range
0 to 1000 ppm (V)
Other Analyzer
GE VeriDri™ Dew-Point Transmitter
Description
Column Material
Stainless Steel Type 304 (USA); 3.0 mm in thickness
Inside Dimensions
8.6"(Φ) x 17.7"(L)
220mm (Φ) x 450mm (H)
Packing Material
High-quality activated carbon
Vacuum feedthrough with two valves
Stainless Steel Type 304
Electrochemical signal feedthrough
4 or 8 pins, Stainless Steel Type 304
Integrated on the side panel of the glovebox
Inside dimensions
16.6" L x 10.5" W x 6.4" D
423mm (H) x 266mm (W) x 162.5mm (D)
Capacity
18 L or 32 L, 5 shelves with adjustable height
Minimum Temperature
-35 ℃
Microscopes with CCD Camera Systems
• 10x, 20x, and 40x targets, 5.0 M CCD
Cold well with the cover
Capacity
Diameter: 6.3″ (160 mm)
Depth: 7.9″ (200 mm)
Minimum Temperature
-120°C
Dual Purification Columns
More efficient to remove oxygen and moisture
Organic Solvent Absorber
Regenerable, more efficient to purify organic solvent
Cooling Fan
Accelerate the gas flow in the glovebox chamber
Heating Element
Installed in Main Antechamber; Maximum 200 °C; Temperature control ±1 °C.
Compliance
UL certified, ISO9001 certified, and CE certified
Warranty
Glovebox
One year limited warranty, and lifetime technical support
Exceptions
• Rusting or damage due to improper storage or maintenance
• Consumable items such as gloves and oxygen sensors
Application Notes & Warnings
• The interconnections between the glove-box chamber and the gas purification system must be unimpeded during the purification cycles
• The use of corrosive gases is prohibited because they will damage the water and oxygen sensors
• Regularly perform regeneration to maintain the optimum purification efficiency
• The O2 removal rate is largely dependent on the type of purging gas used. For faster chamber purging process, Nitrogen is preferred over Argon due to its lighter mass
• Corrosive liquid (such as LiPF6 electrolyte) must be sealed in a container inside the glove box. Otherwise, liquid-vapor may condense and corrode the steel chamber and purification pipeline
Contact: Sean Guo
Phone:
Tel: +1 5419085748
Add: Guangdong Province, China, GuangZhou